%%
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%%
%% Copyright Ericsson AB 1999-2016. All Rights Reserved.
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%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
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%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
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%% %CopyrightEnd%
%%
%%
-module(int_eval_SUITE).
%% Purpose: Deeper test of the evaluator.
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2,
init_per_testcase/2, end_per_testcase/2,
bifs_outside_erlang/1, spawning/1, applying/1,
catch_and_throw/1, external_call/1, test_module_info/1,
apply_interpreted_fun/1, apply_uninterpreted_fun/1,
interpreted_exit/1, otp_8310/1, stacktrace/1, maps/1]).
%% Helpers.
-export([applier/3]).
-define(IM, my_int_eval_module).
-include_lib("common_test/include/ct.hrl").
suite() -> [{ct_hooks,[ts_install_cth]},
{timetrap,{minutes,1}}].
all() ->
[bifs_outside_erlang, spawning, applying,
catch_and_throw, external_call, test_module_info,
apply_interpreted_fun, apply_uninterpreted_fun,
interpreted_exit, otp_8310, stacktrace, maps].
groups() ->
[].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
init_per_testcase(_Case, Config) ->
DataDir = proplists:get_value(data_dir, Config),
?line {module,?IM} = int:i(filename:join(DataDir, ?IM)),
?line ok = io:format("Interpreted modules: ~p",[int:interpreted()]),
Config.
end_per_testcase(_Case, _Config) ->
ok = io:format("Interpreted modules: ~p", [int:interpreted()]),
ok.
%% Test that BIFs outside the erlang module are correctly evaluated.
bifs_outside_erlang(Config) when is_list(Config) ->
Fun = fun() ->
Id = ?IM:ets_new(),
Self = self(),
ok = io:format("Self: ~p", [Self]),
Info = ets:info(Id),
Self = proplists:get_value(owner, Info),
?IM:ets_delete(Id),
ok
end,
?line ok = spawn_eval(Fun),
ok.
%% Try evalutate spawn_link/3.
spawning(Config) when is_list(Config) ->
?line ok = spawn_eval(fun() -> ?IM:spawn_test() end).
%% Try various sorts of applies.
applying(Config) when is_list(Config) ->
Fun = fun({number,X}, {number,Y}) -> X+Y end,
?line ok = spawn_eval(fun() -> ?IM:apply_test(Fun) end).
%% Test catch and throw/1.
catch_and_throw(Config) when is_list(Config) ->
{a,ball} = spawn_eval(fun() -> ok = ?IM:catch_a_ball(),
catch ?IM:throw_a_ball() end),
%% Throw and catch without any extra outer catch.
?line process_flag(trap_exit, true),
?line Pid1 = spawn_link(fun() -> exit(?IM:catch_a_ball()) end),
receive
{'EXIT',Pid1,ok} -> ok;
{'EXIT',Pid1,Bad1} -> ct:fail({bad_message,Bad1})
after 5000 ->
ct:fail(timeout)
end,
%% Throw without catch.
?line Pid2 = spawn_link(fun() -> ?IM:throw_a_ball() end),
receive
{'EXIT',Pid2,{{nocatch,{a,ball}},[_|_]}} -> ok;
{'EXIT',Pid2,Bad2} -> ct:fail({bad_message,Bad2})
after 5000 ->
ct:fail(timeout)
end,
?line ok = ?IM:more_catch(fun(_) -> ?IM:exit_me() end),
?line ok = ?IM:more_catch(fun(_) -> exit({unint, exit}) end),
?line {a, ball} = ?IM:more_catch(fun(_) -> ?IM:throw_a_ball() end),
?line {b, ball} = ?IM:more_catch(fun(_) -> throw({b,ball}) end),
ExitInt = {'EXIT',{int,exit}},
ExitU = {'EXIT',{unint,exit}},
?line ExitInt = (catch ?IM:more_nocatch(fun(_) -> ?IM:exit_me() end)),
?line ExitU = (catch ?IM:more_nocatch(fun(_) -> exit({unint, exit}) end)),
?line {a, ball} = (catch {error, ?IM:more_nocatch(fun(_) -> ?IM:throw_a_ball() end)}),
?line {b, ball} = (catch {error, ?IM:more_nocatch(fun(_) -> throw({b,ball}) end)}),
ok.
%% Test external calls.
external_call(Config) when is_list(Config) ->
?line ok = spawn_eval(fun() -> ?IM:external_call_test({some,stupid,data}) end).
%% Test the module_info/0,1 functions.
test_module_info(Config) when is_list(Config) ->
?line ModInfo = ?IM:module_info(),
?line {value,{exports,Exp}} = lists:keysearch(exports, 1, ModInfo),
?line {value,{attributes,Attr}} = lists:keysearch(attributes, 1, ModInfo),
?line Exp = ?IM:module_info(exports),
?line Attr = ?IM:module_info(attributes),
?line {value,{stupid_attribute,[{a,b}]}} =
lists:keysearch(stupid_attribute, 1, Attr),
%% Check exports using a list comprehension in the module itself.
?line ok = ?IM:check_exports(Exp),
%% Call module_info/0,1 from the module itself.
?line ok = ?IM:check_module_info(ModInfo, Exp),
ok.
%% Apply a fun defined in interpreted code.
apply_interpreted_fun(Config) when is_list(Config) ->
%% Called from uninterpreted code
?line F1 = spawn_eval(fun() -> ?IM:give_me_a_fun_0() end),
?line perfectly_alright = spawn_eval(fun() -> F1() end),
?line ATerm = {a,term},
?line F2 = spawn_eval(fun() -> ?IM:give_me_a_fun_0(ATerm) end),
?line {ok,ATerm} = spawn_eval(fun() -> F2() end),
%% Called from uninterpreted code, badarity
?line {'EXIT',{{badarity,{F1,[snape]}},[{?MODULE,_,_,_}|_]}} =
spawn_eval(fun() -> F1(snape) end),
%% Called from uninterpreted code, error in fun
?line F3 = spawn_eval(fun() -> ?IM:give_me_a_bad_fun() end),
?line {'EXIT',{snape,[{?IM,_FunName,_,_}|_]}} =
spawn_eval(fun() -> F3(snape) end),
%% Called from within interpreted code
?line perfectly_alright = spawn_eval(fun() -> ?IM:do_apply(F1) end),
%% Called from within interpreted code, badarity
?line {'EXIT',{{badarity,{F1,[snape]}},[{?IM,do_apply,_,_}|_]}} =
spawn_eval(fun() -> ?IM:do_apply(F1, snape) end),
%% Called from within interpreted code, error in fun
?line {'EXIT',{snape,[{?IM,_FunName,_,_}|_]}} =
spawn_eval(fun() -> ?IM:do_apply(F3, snape) end),
%% Try some more complex funs.
?line F4 = ?IM:give_me_a_fun_1(14, 42),
?line {false,yes,yeah,false} =
F4({{1,nope},{14,yes},{42,yeah},{100,forget_it}}),
?line [this_is_ok,me_too] =
F4([{-24,no_way},{15,this_is_ok},{1333,forget_me},{37,me_too}]),
%% OTP-5837
%% Try fun with guard containing variable bound in environment
?line [yes,no,no,no] = ?IM:otp_5837(1),
ok.
%% Apply a fun defined outside interpreted code.
apply_uninterpreted_fun(Config) when is_list(Config) ->
?line F1 = fun(snape) ->
erlang:error(snape);
(_Arg) ->
perfectly_alright
end,
%% Ok
?line perfectly_alright =
spawn_eval(fun() -> ?IM:do_apply(F1, any_arg) end),
%% Badarity (evaluated in dbg_debugged, which calls erlang:apply/2)
?line {'EXIT',{{badarity,{F1,[]}},[{erlang,apply,_,_}|_]}} =
spawn_eval(fun() -> ?IM:do_apply(F1) end),
%% Error in fun
?line {'EXIT',{snape,[{?MODULE,_FunName,_,_}|_]}} =
spawn_eval(fun() -> ?IM:do_apply(F1, snape) end),
ok.
%%
%% Try executing an interpreted exit/1 call.
%%
interpreted_exit(Config) when is_list(Config) ->
?line process_flag(trap_exit, true),
?line Reason = make_ref(),
?line Pid = spawn_link(fun() -> ?IM:please_call_exit(Reason) end),
?line receive
{'EXIT',Pid,Reason} ->
ok;
{'EXIT',Pid,BadReason} ->
ct:fail({bad_message,BadReason})
after 10000 ->
ct:fail(timeout)
end,
ok.
%% OTP-8310. Bugfixes lc/bc and andalso/orelse.
otp_8310(Config) when is_list(Config) ->
?line ok = ?IM:otp_8310(),
ok.
applier(M, F, A) ->
Res = apply(M, F, A),
io:format("~p:~p(~p) => ~p\n", [M,F,A,Res]),
Res.
stacktrace(Config) when is_list(Config) ->
?line {done,Stk} = do_eval(Config, stacktrace),
?line 13 = length(Stk),
?line OldStackTraceFlag = int:stack_trace(),
?line int:stack_trace(no_tail),
try
?line Res = spawn_eval(fun() -> stacktrace:stacktrace() end),
?line io:format("\nInterpreted (no_tail):\n~p", [Res]),
?line {done,Stk} = Res
after
?line int:stack_trace(OldStackTraceFlag)
end,
ok.
maps(Config) when is_list(Config) ->
Fun = fun () -> ?IM:empty_map_update([camembert]) end,
{'EXIT',{{badmap,[camembert]},_}} = spawn_eval(Fun),
[#{hello := 0, price := 0}] = spawn_eval(fun () -> ?IM:update_in_fun() end),
ok.
do_eval(Config, Mod) ->
DataDir = proplists:get_value(data_dir, Config),
?line ok = file:set_cwd(DataDir),
?line {ok,Mod} = compile:file(Mod, [report,debug_info]),
?line {module,Mod} = code:load_file(Mod),
?line CompiledRes = Mod:Mod(),
?line ok = io:format("Compiled:\n~p", [CompiledRes]),
io:nl(),
?line {module,Mod} = int:i(Mod),
?line IntRes = Mod:Mod(),
?line ok = io:format("Interpreted:\n~p", [IntRes]),
?line CompiledRes = IntRes.
%%
%% Evaluate in another process, to prevent the test_case process to become
%% interpreted.
%%
spawn_eval(Fun) ->
Self = self(),
spawn_link(fun() -> Self ! (catch Fun()) end),
receive
Result ->
Result
end.